Transcript Document

What we need for the LHC
Roger Barlow
Terascale Physics Statistics School
DESY, March 25th 2010
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Statistics for the LHC
Not just setting limits –
but making Discoveries
Higgs!
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Astronomical
Discovery #1
Uranus
Discovered by Herschel in 1781
An amateur
astronomer – but
high technology
equipment
Found in a thorough survey of the sky
searching for comets.
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Statistical Discovery
You find something weird:
– Single weird event
– Several weirdish events
– Bump in mass
– Unexpected distribution
Significance
pValue
1σ
31.7%
2σ
4.55%
3σ
2.70 10-3
4σ
6.33 10-5
5σ
5.73 10-7
Very unlikely that SM processes would look like this.
You report p-value, (say 0.0027), the probability
6σ
1.97 10-9
that the SM could produce an effect as weird as this
– or equivalently as (in this case) a 3-sigma-effect.
Press will say “Probability that the SM could be true is
only 0.27%” (or whatever) Roger Barlow
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“Probability that the Standard
Model is true”
P(Theory | Data) 

P(Data | Theory)
P(Theory)
P(Data | Theory)P(Theory)  P(Data | notTheory)P(notTheory)
P(SM | Data) 
P(Data | SM)
P(SM)
P(Data | SM)P(SM)  P(Data | X)P(X)
P(SM) – probability that the SM is effectively true for this energy/environment
X = 
your favourite BSM theory. P(Data|SM) ~ pValue.
Presumably P(SM)≈1, P(Data|X)~1
P(SM | Data) 
pValue
pValue  P(X)
P(X) is limited by 1-P(SM) and there are many other BSM theories.
If P(SM)=99.9% then maybe P(X)=10-4 and P(SM|Data)=27/28=96%

To knock a hole in the Standard Model,
need REALLY small p-value
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Astronomical
Discovery #2
Neptune
Discovered at Berlin/Cambridge
in 1846 from predictions by
LeVerrier/Adams
Prediction based on
discrepancies in
Uranus’ orbit
Observed by Galileo (and others) but
not recognised for what it was
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Evaluating the p Value
Option 1:
Simulate the SM processes using Monte Carlo and count how
many times this measure-of-weirdness is exceeded.
This is correct by construction (if you trust your MC). Not good
for probing low-probability tails, unless you do something
clever weighting events
Option 2:
For measure-of-weirdness use a statistic with well-established
mathematical properties, e.g. χ2 distribution
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Traps with χ2
Χ2 assumes Gaussian errors:
Not true for histograms, if
bin contents are small
Figure shows results of toy
MC simulating pValue
distribution from χ2 of
histogram with ~40, 20,
and 4 events/bin
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χ2 and fitting
N data points, M fitted parameters, gives χ2 with
distribution N-M ‘Degrees of freedom’
Strictly speaking – only true if fitting is linear, and
errors do not depend on fitted parameters. Care!
Difference of two χ2 distributions is χ2
If you add parameters the improvement in χ2 tells you
whether they are giving a significantly better fit
(through its pValue)
But …
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Astronomical
Discovery #3
• Pluto
Discovered in
1930 by Tombaugh
following
predictions by
Lowell based on
remaining Uranus
deviations
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Discrepancies in
Uranus’ orbit now
removed since
better measurement
of Neptune’s mass
Roger Barlow
Since clear that Pluto not massive
enough to be a ‘planet’: the Kuiper
belt contains many such ‘dwarf
planets’
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Statistics tools: another use
for Maximum Likelihood
Used for parameter estimation & errors. Not for goodness-of-fit
Can be used for model comparison
For two nested models P0(x;a1,a2…an) and P1(x; a1,a2…an+m) ,
twice the improvement in Ln L is given by a χ2 distribution
with m-n degrees of freedom.
• Hard to show, but reverse obvious as Prob  exp(-χ2/2)
• Sometimes called Wilks’ Theorem
• Sometime called Likelihood Ratio Test
• Subject to legal small print, e.g. samples must be large…
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Example
Generate x in [-0.5, 0.5] according to
uniform distribution. P(x)=1
Try P(x;a)=1+ax
Find â using Max Likelihood and
improvement in Likelihood and pvalue from Prob(2 Δ ln L;1)
Plot shows p-value distribution for 100
and for 10 x values
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Two Discoveries in
Particle Physics
U-type
Strange
Particles
N-type
The ΩMarch 25, 2010
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Pitfalls with Δχ2 and Δln L
Data fitted by Background (green)
or Background+signal (Red)
Signal = N BW(M,M0,Γ)
Adding Signal improves χ2 .
Difference between two χ2 values
has a χ2 distribution.
Can say - M0,Γ fixed: Null hypothesis
says improvement is χ2 for 1 D.O.F.
Prob(Δχ2;1) gives pValue
Can’t say-M0,Γ free: Null hypothesis
says improvement is χ2 for 3 D.O.F.
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Prob(Δχ
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Making it obvious
For illustration, suppose Γ is fixed and
small. Resonance just affects 1 bin.
If M0 fixed then adjusting N lets you fix
the value in that bin. Its contribution to
χ2 is washed out. Expected
improvement 1.
If M0 free then adjusting N lets you fix
the worst bin in the plot. Expected
improvement large and hard to
calculate – depends on number of bins
Put like this it’s obvious. Yet it
goes on. Be prepared to fight
your colleagues.
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Patterns of Particle
Discovery
U type
Electrons
Protons
Muons
Strangeness
Ψ
DSJ
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N type
Positron
Gluon
W, Z
Top quark
P violation
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N’ type
Bottom quark
N’’ type
Tau
Neutral Currents
CP violation
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Dangerous Dummy
Parameters
“Hypothesis testing when a nuisance parameter is present only
under the alternative” - R.B. Davies Biometrika 64 p247
(1977) and 74 p33 (1987)
If the alternative ‘improved’ model contains parameters which
are meaningless under the background-only null hypothesis
then the Δχ2 test (etc) does not work.
Model Background(x,a) and Background(x,a)+N Signal(x,a)
Does a contains parameters which do not affect Background ?
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Conclusions
• You will not find something unless you look
• What you find may not be what you’re looking for.
• You need either a new technology or a prediction. Or
both.
• Discovery will need hard work and perseverance
• Statistical tools will be essential, and they can be
tricky
Good luck!
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